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Robert Brown helps us see that a "thermally comfortable microclimate" is the very foundation of well-designed and well-used outdoor places. Brown argues that as we try to minimize human-induced changes to the climate and reduce our dependence on fossil fuels-as some areas become warmer, some cooler, some wetter, and some drier, and all become more expensive to regulate-good microclimate design will become increasingly important. In the future, according to Brown, all designers will need to understand climatic issues and be able to respond to their challenges. Brown describes the effects that climate has on outdoor spaces-using vivid illustrations and examples-while providing practical tools that can be used in everyday design practice. The heart of the book is Brown's own design process, as he provides useful guidelines that lead designers clearly through the complexity of climate data, precedents, site assessment, microclimate modification, communication, design, and evaluation. Brown strikes an ideal balance of technical information, anecdotes, examples, and illustrations to keep the book engaging and accessible. His emphasis throughout is on creating microclimates that attend to the comfort, health, and well-being of people, animals, and plants. Design with Microclimate is a vital resource for students and practitioners in landscape architecture, architecture, planning, and urban design.
A STUDY OF PLANTS-CLIMATE AND THE IMPACTS OF CHANGE UPON VEGETATION.
This book provides an up-to-date, comprehensive treatment of microclimate and local climate. It describes and explains the climate within the lower atmosphere and upper soil, the region critical to life on Earth. It is invaluable for advanced students and researchers in climatology, environmental science, geography, meteorology, agricultural science, and forestry.
Microclimate for Cultural Heritage: Measurement, Risk Assessment, Conservation, Restoration, and Maintenance of Indoor and Outdoor Monuments, Third Edition, presents the latest on microclimates, environmental issues and the conservation of cultural heritage. It is a useful treatise on microphysics, acting as a practical handbook for conservators and specialists in physics, chemistry, architecture, engineering, geology and biology who focus on environmental issues and the conservation of works of art. It fills a gap between the application of atmospheric sciences, like the thermodynamic processes of clouds and dynamics of planetary boundary layer, and their application to a monument surface or a room within a museum. Sections covers applied theory, environmental issues and conservation, practical utilization, along with suggestions, examples, common issues and errors. - Connects theory to practice with clear illustrations, useful examples, and case studies - Covers practical issues, e.g. rising damp, moulds, and pests, indoor heating, thermal comfort, green lighting technology, performing field surveys - Presents the latest standards for measuring cultural assets and their environment - Discusses climate change and indoor - outdoor potential scenarios, including sea-level rise
This title provides architects and urban design professionals with an understanding of how the structure of built spaces at all scales affects microclimatic conditions in the space between buildings and analyses the interaction between microclimate and each element of the urban landscape.
​​This book discusses urban microclimate and heat-related risks in urban areas, brought on by the combination of global climate change effects and local modification of climate determined by extensive urbanization such as the ‘Urban heat island’ phenomenon. This matter is relevant to almost all urbanized areas in the world, where the increase of urban population and air temperature is expected to endanger both the overall health of the population and the energy supply for the functioning of urban systems. The book details the inter-relationship between urban morphology, microclimate and building energy performance and presents a multidisciplinary approach that brings together Urban Climatology, Engineering and Architectural knowledge to support the development of reliable models and tools for research and practice. This book is a useful tool for architects and building energy modelers, urban planners and geographers who need a practical guide to realize basic urban microclimate simulation for use in both academic research and planning practice.
Urban microclimates cannot be explained solely on the basis of scientific phenomena, but are also affected materially and spatially by the city’s local architecture. The layout, design, and facade construction of buildings have a major impact on wind and temperature conditions. For this reason, architecture and urban design that have an effect on microclimates must be investigated in their social and cultural contexts. The publication uses international case studies to explain these relationships. The focus is on manifestations of urban microclimates in an architectural and urban design context. The places investigated are located in France, Italy, the USA, New Zealand, the Philippines, Taiwan, and Burkina Faso.
One of the main objectives of the European Community Programme on Solar Energy is to provide solar energy practitioners -- architects and engineers who design and implement both active and passive solar energy systems, including biomass and daylighting systems -- with well documented meteorological and climatological data so that they can estimate the solar radiation falling on a receiving surface for any location and at any time throughout the year. As a complement to its other landmark contributions in providing firm data to the solar energy community, the CEC launched a new, 36-month-long programme on 1 April 1986, which was intended to provide a better understanding of the relationship between climatic factors and solar radiation, determine the effect of anthropogenic pollution on the amount of usable solar energy, and establish sound models for the correlation between weather data, pollution, regional orography, coastal influence and the solar radiation pattern. The current volume presents the results of this research programme, gathered from eight characteristic sites in the EC. The first three chapters deal with the problem in general, present the environmental parameters which influence the radiation climate of a site, and explain the process of modelling microclimate solar radiation for a specific site. Chapter 4 deals with specific methods for evaluating microclimate solar radiation, using both a software package and a pocket calculator. Chapter 5 supplies extensive references.
Creating Thermal Comfort and Energy Efficiency Microclimatic Landscape Design shows designers how to work withnature to create climatically pleasant spaces for human activities.With remarkable clarity, it covers both the scientific backgroundand the design techniques needed for shaping spaces that increasecomfort and reduce energy consumption. This comprehensive,environmentally-sensitive guide: Presents the basic principles of microclimatology and explainshow objects in the landscape affect climate to createmicroclimates Describes methods for modifying the key variables in amicroclimate, including radiation, wind, temperature, humidity, andprecipitation Shows how to create successful, comfortable spaces under a widevariety of climatic conditions Explains energy budgets and the effects of landscape on energyuse in buildings Includes useful formulas for determining human thermal comfort,estimating solar radiation absorbed by a person, and estimatingwind in a given landscape For landscape architects, architects, contractors, and planners,Microclimatic Landscape Design is a concise, practical, andindispensable guide to improving the comfort of outdoor spaces andreducing the heating or cooling loads on buildings.